Regulatory CD4+ CD25+ Foxp3+ T cells expand during experimental Plasmodium infection but do not prevent cerebral malaria

Pathogenic CD8+ T cells are implicated in the physiopathological mechanisms leading to experimental cerebral malaria (CM) in Plasmodium berghei ANKA (PbA) infected mice. Therefore, we hypothesised that in CM susceptible mice the neuropathology could be, at least in part, the result of an inefficient control of pathogenic effector T cells by CD4+ CD25+ Treg cells. Remarkably, the number of CD4+ CD25high T cells expressing Foxp3 increased in the spleen during the course of infection. These cells displayed an activated phenotype and consistent with that, CD4+ CD25high Treg cells isolated from PbA-infected mice showed an enhanced regulatory activity in vitro. Surprisingly, these cells do not migrate to the brain at the time of neurological symptoms as the conventional CD4+ T cells do. CM was not exacerbated in anti-CD25 treated mice when infected with PbA one month after treatment, even if splenic CD8+ T cells expressing CD69 increased in these mice. Taken together, these results show that P. berghei infection leads to an increase of the number of splenic CD4+ CD25high Treg cells exhibiting in vitro suppressive function, but they do not seem to be involved in vivo in the protection against CM.     

Direct visualization of peptide/MHC complexes at the surface and in the intracellular compartments of cells infected in vivo by Leishmania major

Protozoa and bacteria infect various types of phagocytic cells including macrophages, monocytes, dendritic cells and eosinophils. However, it is not clear which of these cells process and present microbial antigens in vivo and in which cellular compartments parasite peptides are loaded onto Major Histocompatibility Complex molecules. To address these issues, we have infected susceptible BALB/c (H-2d) mice with a recombinant Leishmania major parasite expressing a fluorescent tracer. To directly visualize the antigen presenting cells that present parasite-derived peptides to CD4+ T cells, we have generated a monoclonal antibody that reacts to an antigenic peptide derived from the parasite LACK antigen bound to I-Ad Major Histocompatibility Complex class II molecule. Immunogold electron microscopic analysis of in vivo infected cells showed that intracellular I-Ad/LACK complexes were present in the membrane of amastigote-containing phagosomes in dendritic cells, eosinophils and macrophages/monocytes. In both dendritic cells and macrophages, these complexes were also present in smaller vesicles that did not contain amastigote. The presence of I-Ad/LACK complexes at the surface of dendritic cells, but neither on the plasma membrane of macrophages nor eosinophils was independently confirmed by flow cytometry and by incubating sorted phagocytes with highly sensitive LACK-specific hybridomas. Altogether, our results suggest that peptides derived from Leishmania proteins are loaded onto Major Histocompatibility Complex class II molecules in the phagosomes of infected phagocytes. Although these complexes are transported to the cell surface in dendritic cells, therefore allowing the stimulation of parasite-specific CD4+ T cells, this does not occur in other phagocytic cells. To our knowledge, this is the first study in which Major Histocompatibility Complex class II molecules bound to peptides derived from a parasite protein have been visualized within and at the surface of cells that were infected in vivo.     

Sequence identification and characterization of human carnosinase and a closely related non-specific dipeptidase

Carnosine (beta-alanyl-L-histidine) and homocarnosine (gamma-aminobutyric acid-L-histidine) are two naturally occurring dipeptides with potential neuroprotective and neurotransmitter functions in the brain. Peptidase activities degrading both carnosine and homocarnosine have been described previously, but the genes linked to these activities were unknown. Here we present the identification of two novel cDNAs named CN1 and CN2 coding for two proteins of 56.8 and 52.7 kDa and their classification as members of the M20 metalloprotease family. Whereas human CN1 mRNA and protein are brain-specific, CN2 codes for a ubiquitous protein. In contrast, expression of the mouse and rat CN1 orthologues was detectable only in kidney. The recombinant CN1 and CN2 proteins were expressed in Chinese hamster ovary cells and purified to homogeneity. CN1 was identified as a homodimeric dipeptidase with a narrow substrate specificity for Xaa-His dipeptides including those with Xaa = beta Ala (carnosine, K(m) 1.2 mM), N-methyl beta Ala, Ala, Gly, and gamma-aminobutyric acid (homocarnosine, K(m) 200 microM), an isoelectric point of pH 4.5, and maximal activity at pH 8.5. CN2 protein is a dipeptidase not limited to Xaa-His dipeptides, requires Mn(2+) for full activity, and is sensitive to inhibition by bestatin (IC(50) 7 nM). This enzyme does not degrade homocarnosine and hydrolyzes carnosine only at alkaline pH with an optimum at pH 9.5. Based on their substrate specificity and biophysical and biochemical properties CN1 was identified as human carnosinase (EC ), whereas CN2 corresponds to the cytosolic nonspecific dipeptidase (EC ).     

Efficient adenoviral transduction of 3T3-F442A preadipocytes without affecting adipocyte differentiation

The preadipocyte cell lines 3T3-L1 and 3T3-F442A are widely used to study the cellular mechanisms of preadipocyte differentiation and mature adipocyte functions. However, transfection with naked DNA is inefficient in these cell lines. Adenoviral gene transfer is a powerful technique to induce high levels of transgene expression. After failing to obtain 3T3-F442A stable transfectants, we studied different techniques designed to enhance the efficiency of adenoviral transduction in fat cells. First, we compared the effects of two agents known to significantly enhance adenoviral transgene transduction, namely the cationic lipid lipofectamine and the cationic polymer polylysine. We show here that lipofectamine-assisted adenoviral transduction was more efficient in 3T3-F442A than in 3T3-L1 preadipocytes at all tested multiplicity of infection. Lipofectamine, and more efficiently polylysine, yielded high and sustained levels of adenoviral transgene expression in 3T3-F442A preadipocytes. Adenoviral transgene expression was maintained throughout the differentiation process. Furthermore, the two agents also efficiently enhanced adenoviral transduction in mature 3T3-F442A adipocytes. Interestingly, neither protocol affected the differentiation process, morphological features or protein expression of mature adipocytes. These approaches could be of interest to study fat cell differentiation and the functions of mature adipocytes.     

Novel C2-C3' N-peptide linked macrocyclic taxoids. Part 1: Synthesis and biological activities of docetaxel analogues with a peptide side chain at C3'

A series of novel docetaxel analogues possessing a peptide side chain at the C3'-N position was synthesized. These compounds were designed to mimic a region of the alpha-tubulin loop that is equivalent to the paclitaxel binding pocket in beta-tubulin. Eight new peptidic taxoids were obtained and evaluated as inhibitors of microtubule disassembly, as well as for their cytotoxicity.     

Automatic sequence design of major histocompatibility complex class I binding peptides impairing CD8+ T cell recognition

An automatic protein design procedure was used to compute amino acid sequences of peptides likely to bind the HLA-A2 major histocompatibility complex (MHC) class I allele. The only information used by the procedure are a structural template, a rotamer library, and a well established classical empirical force field. The calculations are performed on six different templates from x-ray structures of HLA-A0201-peptide complexes. Each template consists of the bound peptide backbone and the full atomic coordinates of the MHC protein. Sequences within 2 kcal/mol of the minimum energy sequence are computed for each template, and the sequences from all the templates are combined and ranked by their energies. The five lowest energy peptide sequences and five other low energy sequences re-ranked on the basis of their similarity to peptides known to bind the same MHC allele are chemically synthesized and tested for their ability to bind and form stable complexes with the HLA-A2 molecule. The most efficient binders are also tested for inhibition of the T cell receptor recognition of two known CD8(+) T effectors. Results show that all 10 peptides bind the expected MHC protein. The six strongest binders also form stable HLA-A2-peptide complexes, albeit to varying degrees, and three peptides display significant inhibition of CD8(+) T cell recognition. These results are rationalized in light of our knowledge of the three-dimensional structures of the HLA-A2-peptide and HLA-A2-peptide-T cell receptor complexes.     

Improved adaptation to cold-shock,stationary-phase,and freezing stresses in Lactobacillus plantarum overproducing cold-shock proteins

We have investigated the effect of overproducing each of the three cold shock proteins (CspL, CspP, and CspC) in the mesophilic lactic acid bacterium Lactobacillus plantarum NC8. CspL overproduction transiently alleviated the reduction in growth rate triggered by exposing exponentially growing cells to cold shock (8 degrees C), suggesting that CspL is involved in cold adaptation. The strain overproducing CspC resumed growth more rapidly when stationary-phase cultures were diluted into fresh medium, indicating a role in the adaptation and recovery of nutritionally deprived cells. Overproduction of CspP led to an enhanced capacity to survive freezing.     

Generation and characterization of neutralizing human monoclonal antibodies against human immunodeficiency virus type 1 Tat antigen

The human immunodeficiency virus Tat regulatory protein is essential for virus replication and pathogenesis. From human peripheral blood mononuclear cells of three Tat toxoid-immunized volunteers, we isolated five Tat-specific human monoclonal antibodies (HMAbs): two full-length immunoglobulin G (IgG) antibodies and three single-chain fragment-variable (scFv) antibodies. The two IgGs were mapped to distinct epitopes within the basic region of Tat, and the three scFvs were mapped to the N-terminal domain of Tat. The three scFvs were highly reactive with recombinant Tat in Western blotting or immunoprecipitation, but results were in contrast to those for the two IgGs, which are sensitive to a particular folding of the protein. In transactivation assays, scFvs were able to inhibit both active recombinant Tat and native Tat secreted by a transfected CEM cell line while IgGs neutralized only native Tat. These HMAbs were able to reduce viral p24 production in human immunodeficiency virus type 1 strain IIIB chronically infected cell lines in a dose-dependent manner.